UE OR FALSE 1. The Trouton's Rule is used when estimating the latent heat of vaporization of pure liquids at normal boiling point. 2. Thermal reservoirs are hypothetical body with large thermal energy wherein a finite amount of heat can be supplied and increases its temperature by a significant amount. 3. Refrigerators uses supplied work to transfer heat from a low temperature reservoir to a high temperature reservoir. 4. It is impossible for any device that operates on a cycle to receive heat from a single reservoir and produce a net amount of work equivalent to the heat received except for Carnot Engine. 5. Entropy change of a closed system is due to the entropy transfer accompanying heat transfer and the entropy generation within the system boundaries. 6. The total entropy change associated with any process must be positive, with a limiting value of zero for reversible and irreversible processes.
UE OR FALSE 1. The Trouton's Rule is used when estimating the latent heat of vaporization of pure liquids at normal boiling point. 2. Thermal reservoirs are hypothetical body with large thermal energy wherein a finite amount of heat can be supplied and increases its temperature by a significant amount. 3. Refrigerators uses supplied work to transfer heat from a low temperature reservoir to a high temperature reservoir. 4. It is impossible for any device that operates on a cycle to receive heat from a single reservoir and produce a net amount of work equivalent to the heat received except for Carnot Engine. 5. Entropy change of a closed system is due to the entropy transfer accompanying heat transfer and the entropy generation within the system boundaries. 6. The total entropy change associated with any process must be positive, with a limiting value of zero for reversible and irreversible processes.
Elements Of Electromagnetics
7th Edition
ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
ChapterMA: Math Assessment
Section: Chapter Questions
Problem 1.1MA
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please answer all. true or false. thank you...
![TRUE OR FALSE
1. The Trouton's Rule is used when estimating the latent heat of vaporization of pure liquids at
normal boiling point.
2. Thermal reservoirs are hypothetical body with large thermal energy wherein a finite amount of
heat can be supplied and increases its temperature by a significant amount.
3. Refrigerators uses supplied work to transfer heat from a low temperature reservoir to a high
temperature reservoir.
4. It is impossible for any device that operates on a cycle to receive heat from a single reservoir and
produce a net amount of work equivalent to the heat received except for Carnot Engine.
5. Entropy change of a closed system is due to the entropy transfer accompanying heat transfer and
the entropy generation within the system boundaries.
6. The total entropy change associated with any process must be positive, with a limiting value of
zero for reversible and irreversible processes.](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F0e76e245-d47b-4d19-8936-fdecbcfae9af%2F5a64b963-ba40-4557-84f6-ba5fa0a8a787%2Fn5uev3_processed.png&w=3840&q=75)
Transcribed Image Text:TRUE OR FALSE
1. The Trouton's Rule is used when estimating the latent heat of vaporization of pure liquids at
normal boiling point.
2. Thermal reservoirs are hypothetical body with large thermal energy wherein a finite amount of
heat can be supplied and increases its temperature by a significant amount.
3. Refrigerators uses supplied work to transfer heat from a low temperature reservoir to a high
temperature reservoir.
4. It is impossible for any device that operates on a cycle to receive heat from a single reservoir and
produce a net amount of work equivalent to the heat received except for Carnot Engine.
5. Entropy change of a closed system is due to the entropy transfer accompanying heat transfer and
the entropy generation within the system boundaries.
6. The total entropy change associated with any process must be positive, with a limiting value of
zero for reversible and irreversible processes.
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